Biofertilizer application of whole and lipid-extracted microalgal biomass generated using nutrient-supplemented wastewater

 

     

      The application of biofertilizers derived from whole and lipid-extracted microalgal biomass presents a sustainable approach to enhancing soil fertility and crop productivity. Utilizing nutrient-supplemented wastewater for cultivating microalgae not only supports biomass generation but also contributes to wastewater treatment and nutrient recycling. Whole microalgal biomass is rich in essential nutrients, organic matter, and bioactive compounds, improving soil structure and microbial activity. Lipid-extracted biomass, a by-product of biofuel production, retains significant levels of proteins, carbohydrates, and minerals, making it an efficient biofertilizer. This circular approach integrates wastewater management, renewable energy, and sustainable agriculture, promoting eco-friendly farming practices while reducing dependency on chemical fertilizers.

#Biofertilizer #MicroalgalBiomass #WastewaterTreatment #SustainableAgriculture #NutrientRecycling #LipidExtractedBiomass #BiofuelByproducts #SoilFertility #OrganicFarming #EcoFriendlyFarming #SoilHealth #GreenFertilizer #MicroalgaeApplication #RenewableAgriculture #AgroBiotechnology





For Enquiries: info@soilscientists.org

Get Connected Here

-------------------------- 
--------------------------







Comments

Popular posts from this blog

Sustainable iron recovery from tailings via green reduction technology: from waste to resource

From Waste to Growth Evaluating Leachate Sludge for Sustainable Plant Cultivation

Effects of Char and Amendments on Soil Properties and Sugar Beet Yield in Sandy Clay Loam Soil